Hadron physics at KLOE and KLOE-2

Hadron physics at KLOE and KLOE-2 (Universita La Sapienza e INFN Roma) for the KLOE / KLOE-2 Collaborations EPS HEP 2011 22 July 2011 Grenoble

Outline DAΦNE KLOE / KLOE-2 Recent results on Hadron Physics: h + g h e + e e + e Search for dark forces (ϕ ηe + e ) γγ physics: γγ η γγ π 0 π 0 Conclusions EPS HEP 2011 22 July 2011 2

Frascati f-factory: e + e - collider @ s 1020 MeV M f ; peak 3.1 b DA NE Integrated luminosity (pb -1 ) Best performances in 2005: L peak = 1.4 10 32 cm -1 s -1 Ldt = 8.5 pb -1 /day KLOE: 2.5 fb -1 @ s=m f ( 8 10 9 f produced) + 250 pb -1 off-peak @ s=1000 MeV DA NE upgrade: New interaction scheme implemented, large beam crossing angle + crabbed waist optics Luminosity increase expected: factor ~ 3 Ldt 1 pb -1 /hour DA NE commissioning will restart in October 2011 EPS HEP 2011 22 July 2011 3

Drift chamber: gas: 90% He-10% ic 4 H 10 dp T /p T = 0.4% xy 150 m ; z 2 mm vertex 1 mm E.m. calorimeter (Pb-Sci.Fi.): E /E = 5.7% / (E(GeV)) t = 55 ps/ (E(GeV)) 100 ps 98% of 4 KLOE/KLOE-2 Magnetic field: 0.52 T KLOE-2: a two step upgrade 1) First run ( 5 fb -1 @ f peak) e taggers for gg physics (already installed) 2) Major upgrades (Summer 2012) (L>20 fb -1 ) inner tracker + new small angle calorimeters (see D.Moricciani s talk Detector R&D session) EPS HEP 2011 22 July 2011 4

h + g Study of the box anomaly: test of ChPT and its unitarized extensions [Benayoun et al. EPJC31(2003)525; Holstein, Phys. Scripta, T99(2002)55; Borasoy, Nissler, NPA740(2004)362, Picciotto PRD45(1992)1569] Sizeable effect of the Contact Term expected both in Γ(η π + π γ) and in the M ππ distribution CLEO result (2007) is 2 3 lower than previous measurements EPS HEP 2011 22 July 2011 5

h + g f hg, h + - g : L = 558 pb -1 Main background: f + 0 Signal extraction from fit to E-p ~ 2 10 5 events Normalization sample: h + - 0 E-p (MeV) M ππ distribution (bckg subtracted) Fit with CT + VMD [parametr. from Picciotto Phys. Rev. D45 (1992), 1569] Data - Fit KLOE-2: h + g 10 5 events expected M ππ lineshape more sensitive to CT EPS HEP 2011 22 July 2011 M 6 (MeV)

Normalization Sample: h + - 0 h + - 0 L = 558 pb -1 N( h + - 0 )=1.19 10 6 e=(22.77 0.02)% B/S=0.65% (e + e - f hg) = 41.8 0.2 nb f P miss P - P - P - + - P Composition g f BR(h + - 0 ) = (22.41 0.03 0.35)% PDG 10:BR(h + - 0 ) = (22.74 0.28)% M (MeV) EPS HEP 2011 22 July 2011 7

h e + e - e + e - Theoretical predictions: BR ~ 2.4 2.6 10-5 BR < 6.9 10-5 @90%C.L. (CMD-2, 2001) BR < 9.7 10-5 @90%C.L. (WASA, 2008) (2 evts, with 1.3 bckg) Data sample: 1.7 fb -1 MC simulation according to Bijnens and Persson [hep-ph/0106130] e + e pairs from photon conversions in the beam pipe and Drift Chamber wall rejected Fit with signal + background from continuum (e + e e + e γ with γ conversion) EPS HEP 2011 22 July 2011 accepted by PLB [arxiv:1105.6067] 8

Search for dark forces Recent astrophysical observations (PAMELA, ATIC, INTEGRAL, DAMA/LIBRA) can be interpreted by assuming the existence of a light dark sector that interacts with SM particles through a mixing of a new gauge boson, U with O(1 GeV) mass, with the photon e U [Arkani-Hamed et al. PRLD79(2009), 015014 Essig et al., PRD80(2009)015003] If the mixing parameter ε ~ 10-3 10-4 could be observable at KLOE Signature: ϕ ηu, U l + l - Data f he + e - h + - 0 f he + e - Main bckg: Dalitz decay f K + K - f K Analyzed sample: 1.5 fb -1 S K L f + - 0 Best + - gg match to the h mass ~14000 f he + e - (h + - 0 ) candidates f hg h peak U e 535 < M miss (ee) < 560 MeV EPS HEP 2011 22 July 2011 9

Limit on ε from ϕ ηe + e - 3% error on FF slope [SND01: b fh = (3.8±1.8) GeV -2 ] f hu MC sample divided in subsamples of 1 MeV in true M ee Bckg from fit to M ee distribution excluding the 5 bins around the selected one [parametrization from Landsberg, Phys.Rep.128(1985)301] Upper limit evaluated with the CL S method = = e 2 e 2 [arxiv:1107.2531] U.L. @ 90% C.L. on number of events 17.5 [Plot from MAMI-A1 [MAMI-A1, PRL106(2011)251802] EPS HEP 2011 22 July 2011 m U (MeV) 10

gg physics X = 0 0 search for (600) X = 0, h (X gg) (KLOE-2: Γ(π 0 γγ) @ ~ 1%) Transition form factors F Xg*g* (q 12,q 22 ) (input for calculation of the Light-by-Light contribution to g-2 of the muon) KLOE: no e tagging s = 1 GeV KLOE-2: s = M f Tagger is essential to reduce the background from the f and to EPS close HEP 2011 the 22 kinematics July 2011 11

gg h Data sample: 240 pb -1 off-peak ( s = 1 GeV) Main bckg: e + e - hg with g lost γγ η; η π + π π 0 Fit to h longitudinal momentum (p L ) and missing mass (M miss ) e + e - hg + - 0 g e + e e + e g signal 650 signal events γγ η; η π 0 π 0 π 0 Fit to the missing mass distribution: 921 signal events M 2 miss (GeV 2 ) Work in progress to extract the cross-section EPS HEP 2011 22 July 2011 M 2 miss (GeV 2 ) 1760 e + e - hg events [arxiv:1107.3782] 12

(e + e - hg) @1 GeV e + e - hg + 0 g: 3 photons + 2 tracks pion ID kinematic cuts to suppress background from kaons kinematic fit - ηγ - ωγ - ωπ 0 (e + e - hg, 1 GeV)= (0.866 0.009±0.093) nb [arxiv:1107.3782] In agreement with the result from h 0 0 0 : (e + e - hg, 1 GeV)= (0.875 0.018±0.035) nb EPS HEP 2011 22 July 2011 13

(cos 0.8) (nb) e + e - e + e - 0 0 240 pb -1 off-peak ( s = 1 GeV) Selected sample: 4 prompt photons Excess of events with respect to background in the low mass region gg 0 0 cross-section evaluation in progress gg 0 0 gg 0 0 EPS HEP 2011 22 July 2011 W gg (MeV) KLOE-2: O(10 fb -1 )at s = M f with e tagging 2% statistical accuracy using the same energy bin as Crystal Ball (~20% error) 14

Conclusions KLOE published more than 20 papers on hadron physics (scalar mesons, η / η decays, hadronic cross section, ) (see G.Venanzoni s talk tomorrow - Top and EW Physics session) KLOE is continuing to exploit the high statistics samples of light mesons collected at DAΦNE to perform precision measurements in hadron spectroscopy and to look for very rare decays KLOE-2: > 20 fb -1 in the next 3 4 years Rich program of measurements in hadron physics [Eur.Phys.J.C68(2010),619] - study of η and η decays - η / η mixing - search for dark forces - γγ processes at s = M ϕ (with the e ± taggers): Γ(π 0 γγ), Pγγ transition form factors, search for the σ(600) KLOE-2 is ready to start a new data-taking EPS HEP 2011 22 July 2011 15

Spare slides EPS HEP 2011 22 July 2011 16

KLOE-2 physics program Goal: ~20 fb -1 in the next 3 4 years to extend the KLOE physics program Eur. Phys. J. C68(2010)619 gg physics Light meson spectroscopy Kaon physics Dark matter searches Existence (and properties) of (600) Study of (S/P gg) P transition form factor Properties of scalar/vector mesons Rare h decays h physics Test of CPT (and QM) in correlated kaon decays Test of CPT in K S semileptonic decays Test of SM (CKM unitarity, lepton universality) Test of PT (K S decays) Light bosons @ O(1 GeV) Hadronic cross section em (M Z ) and (g -2) EPS HEP 2011 22 July 2011 17

From KLOE to KLOE-2 Two step upgrade: 1) First run (~ 5 fb -1 @ s =M f ) e taggers for gg physics: Low Energy Tagger (E e =130-230 MeV) 2 calorimeters, LYSO + SiPM; near the IP σ E /E < 10% for E > 150 MeV High Energy Tagger (E e > 400 MeV) Scintillator hodoscope + PMTs; after the first dipole, ~ 11 m from IP pitch: 5 mm σ E = 2.5 MeV; σ t 200 ps EPS HEP 2011 22 July 2011 18

From KLOE to KLOE-2 2) Major upgrade (Summer 2012) ( goal : lunimosity > 20 fb -1 ) Inner tracker : 4 layers of cylindrical triple GEM to improve acceptance for low momemtum tracks QCALT: W + scint. tiles + SiPM CCALT : LYSO + APD to increase acceptance for γ s from the IP EPS HEP 2011 22 July 2011 19

Physics at a f-factory Kaon physics: V us and CKM unitarity, CP and CPT violation, rare decays, PT tests, quantum mechanics tests (see C.Bloise s talk f radiative decays: pseudoscalar and scalar mesons Flavour Physics session) Hadron production in gg collisions Hadronic cross-section via ISR [e + e g (π + π )]: hadronic corrections to (g-2) (see G.Venanzoni s talk tomorrow - Top and EW Physics session) Decay channel Events (2.5 fb -1 ) K + K 3.7 10 9 K L K S 2.5 10 9 rπ + π + π π 0 1.1 10 9 hg 9.7 10 7 π 0 g 9.4 10 6 h g 4.6 10 5 ππg 2.2 10 6 hπ 0 g 5.2 10 5 EPS HEP 2011 22 July 2011 0-1 - 0 + BR=83% KK h ' (958) BR=1.3% h BR=1.3 10-3 0 f(1020) r(770) BR=15.3% a 0 (980) f 0 (980) BR=6.2 10-5 BR O(10-4 ) 20

Published papers: Results on hadron physics (f h g)/ (f hg), PLB 541 (2002) 45 f h 0 g, PLB 536 (2002) 209 f 0 0 g, PLB 537 (2002) 21 f + - 0, PLB 561 (2003) 55 h ggg, PLB 591 (2004) 49 (e + e - + - ), PLB 606 (2005) 12 h + -, PLB 606 (2005) 276 (f l + l - ), PLB 608 (2005) 199 f + - g, PLB 634 (2006) 148 h mass, JHEP 12 (2007) 073 e + e - 0 0 g, EPJC 49 (2007) 473 (f h g)/ (f hg), PLB 648 (2007) 267 h + - 0, JHEP 05 (2008) 006 e + e - w 0, PLB 669 (2008) 223 (e + e - + - ), PLB 670 (2009) 285 h/h mixing, JHEP 07 (2009) 105 h + - e + e - PLB 675 (2009) 283 f K 0 K 0 g, PLB 679 (2009) 10 f h 0 g, PLB 681 (2009) 5 h 0 0 0, PLB 694 (2010) 16 (e + e - + - ), PLB700 (2011) 102 h e + e - e + e -, accepted by PLB Ongoing analyses: h + - g h 0 gg f he + e - gg h gg 0 0 EPS HEP 2011 22 July 2011 21

Box anomaly HLS model: [Benayoun et al., EPJC31, 525 (2003)] h + g: M ππ shape is affected by the contact term h + g: M ππ shape slightly sensitive to contact term; effect on the value of the BR EPS HEP 2011 22 July 2011 22

e + e - h U If there is a higgs-like particle (h') in the dark sector, with m h' < M U higgs -strahlung e + e - U* Uh', with U l + l - Signature: e + e - l + l - + missing energy (h not detected) e + e - final state not selected by our Event Classification use + - Background processes f K + K -, K ± μ ± f π + π π 0 e + e - μ + μ - g, + - g with g lost Data, L=1.65 fb -1 K + K - μ + μ - + - g + - g EPS HEP 2011 22 July 2011 23

e + e - h U If there is a higgs-like particle (h') in the dark sector, with m h' < M U higgs -strahlung e + e - U* Uh', with U l + l - Signature: e + e - l + l - + missing energy (h not detected) e + e - final state not selected by our Event Classification use + - Background processes f K + K -, K ± μ ± f π + π π 0 e + e - μ + μ - g, + - g Most background comes from f strongly reduced by looking at off-peak data KLOE-2: Inner Tracker insertion should give major benefits to the analysis with g lost EPS HEP 2011 22 July 2011 Data, L=1.65 L=0.2 fb fb -1-1 @ s = 1 GeV K + K - μ + μ - + - g + - g 24

h π 0 gg PT: O(p 2 ) Q = 0; O(p 4 ) @ tree level = 0; O(p 4 ) @ 1 loop suppressed by G-parity O(p 6 ) test Recent measurements Br(h 0 gg): (7.2 1.4) 10-4 GAMS (1984) < 8.4 10-4 @90% C.L. SND (2001) (22.4 4.6 1.7) 10-5 Crystal Ball@MAMI(2007) (22.1 2.4 3.8) 10-5 Crystal Ball@AGS (reanalysis) KLOE f hg; h 0 gg Backg.: (1) 5g processes: f a 0 g, f 0 g; e + e - w 0 (w 0 g) (2) f hg; h 0 0 0 L 450 pb -1 Br(h 0 gg) = ( 8.4 ± 2.7 ± 1.4 ) 10-5 EPS HEP 2011 22 July 2011 M 4g (MeV) 25

h π 0 gg PT: O(p 2 ) Q = 0; O(p 4 ) @ tree level = 0; O(p 4 ) @ 1 loop suppressed by G-parity O(p 6 ) test Recent measurements Br(h 0 gg): (7.2 1.4) 10-4 GAMS (1984) < 8.4 10-4 @90% C.L. SND (2001) (22.4 4.6 1.7) 10-5 Crystal Ball@MAMI(2007) (22.1 2.4 3.8) 10-5 Crystal Ball@AGS (reanalysis) KLOE f hg; h 0 gg Backg.: (1) 5g processes: f a 0 g, f 0 g; e + e - w 0 (w 0 g) (2) f hg; h 0 0 0 L 450 pb -1 Br(h 0 gg) = ( 8.4 ± 2.7 ± 1.4 ) 10-5 1.5 fb -1 EPS HEP 2011 22 July 2011 M 4g (MeV) 26

gg single pseudoscalar Measurement of (P gg) Transition form factors F Pg*g* (q 12,q 22 ): input for the calculation of the Light-by-Light scattering contribution to g-2 of the muon g * g 0 g * g h KLOE-2 EPS HEP 2011 22 July 2011 27

Γ(π 0 γγ) PrimEx Γ(π 0 γγ) = (7.82 ± 0.14 ± 0.17) ev (2.8%) [PRL106(2011)162303] KLOE-2 will extract the partial width from e + e - e + e - π 0 (π 0 γγ) HET HET coincidence will select q 2 0 for both virtual γ Taking into account acceptance and efficiencies O(10 4 ) events expected in 5 fb -1 ~ 1% accuracy reachable on Γ(π 0 γγ) EPS HEP 2011 22 July 2011 28

gg h, h + - 0 KLOE: 240 pb -1 off-peak ( s = 1 GeV) Sample: 2 g + 2 tracks with opposite charge Main bckg: e + e - hg + 0 g (with the recoil photon lost in the beam pipe) e + e - hg + - 0 g e + e e + e g signal 2 fit /d.o.f.= 75.9/83 2 fit /d.o.f.= 59.8/43 1576 events after the selection Fit to h longitudinal momentum (p L ) and missing mass (M miss ) 650 signal events from fit EPS HEP 2011 22 July 2011 29

gg h, h 0 0 0 Events with 6 prompt photons and no tracks Background: e + e - hg 0 0 0 g (with the recoil photon lost in the beam pipe) Cut on the most energetic photon ( < 260 MeV) and on the 2 of the kinematic fit Fit of the missing mass distribution: 921 signal events 1760 e + e - hg events M 2 miss (GeV 2 ) EPS HEP 2011 22 July 2011 (e + e - hg 0 0 0 g, 1 GeV)= = ( 0.285 0.005 stat ) nb 30

gg 0 0 e + e - e + e - 0 0 240 pb -1 off-peak ( s = 1 GeV) Selected sample: 4 prompt photons Best photon pairing to match two 0 s EPS HEP 2011 22 July 2011 31